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青藏高原地壳水平差异运动的GPS观测研究 被引量:45
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作者 甘卫军 沈正康 +3 位作者 张培震 任金卫 万永革 周德敏 《大地测量与地球动力学》 CSCD 2004年第1期29-35,共7页
以青藏高原及其周边 5 80多个GPS站点的观测资料为基础 ,通过消除青藏高原的整体刚性运动 ,将GPS水平速度场归化到“青藏高原整体固定”的参考框架下 ,使青藏高原内部不同区域的水平差异运动得以获得最大限度的突出。所得速度场图像显... 以青藏高原及其周边 5 80多个GPS站点的观测资料为基础 ,通过消除青藏高原的整体刚性运动 ,将GPS水平速度场归化到“青藏高原整体固定”的参考框架下 ,使青藏高原内部不同区域的水平差异运动得以获得最大限度的突出。所得速度场图像显示 :①以玛尼 玉树 鲜水河断裂为界的青藏高原东南部区域 ,最突出的内部水平形变表现为一条绕喜马拉雅东构造结的挤出式顺时针“流滑带”。而这一流滑带前缘速度场在青藏高原东南角呈现扇形发散特征 ,表明整个流滑带起因于高塑性上地壳物质在挤压和重力共同作用下的侧向逃逸 ;②介于玛尼 玉树 鲜水河断裂和海原断裂之间的青藏高原东北部区域 ,总体上表现出比较均匀的左旋剪切带特性 ,但这种左旋剪切在青藏高原东缘的龙门山一带已不再明显 ,且四川盆地及其以北区域 ,并未承受强烈挤压。因此 ,青藏高原东北部区域 ,相对于高原整体 ,并无明显的东向逃逸。③在整个青藏高原区域内 ,阿尔金断裂、海原断裂及玛尼 玉树 鲜水河断裂两侧的速度场显示了明显的差异 ,反映出这三条断裂带现今强烈的活动性。由于位于玛尼 玉树 鲜水河断裂和喀喇昆仑 嘉黎断裂之间的塑性流滑带的独立东向“逃逸”所产生的“拖拽”使流滑带以北区域表现为整体均匀的左旋剪切 。 展开更多
关键词 GPS观测 地壳形变 流滑带 逃逸 青藏高原
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Formation and evolution of Emeishan basalt saprolite in vadose zones of Touzhai landslide source rockmass 被引量:1
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作者 YANG Ji-qing XU Ze-min +4 位作者 ZHANG Rui CHEN Ji-pu REN Zhe LUO Rong-zhang ZHANG Xiu-shuo 《Journal of Mountain Science》 SCIE CSCD 2017年第6期1174-1184,共11页
In order to explain the formation process of slope hazards, and to identify the key factors leading to instability of a slope, Emeishan basalt saprolite in vadose zones of the Touzhai landslide in Zhaotong, Yunnan, wa... In order to explain the formation process of slope hazards, and to identify the key factors leading to instability of a slope, Emeishan basalt saprolite in vadose zones of the Touzhai landslide in Zhaotong, Yunnan, was studied. The formation and evolution of Emeishan basalt saprolite was examined using, amongst other techniques, field investigations,thin section analysis, scanning electron microscopy(SEM) observations, chemical analysis, physical and water-physical property tests of rock masses. Field observations revealed that the majority of the weathered rock blocks were presented as a concentric layer structure in which an internal corestone was enveloped with several layers of external saprolized crust. Chemical and mineralogical analysis identified that iron was the most sensitive element and that the weathering progress usually started with the oxidation of Fe2+ to Fe3+ in rock blocks. Alkaline elements such as Si, Ca, Mg, Na and K were also dissolved and Fe and Al were concentrated in saprolized crusts. Results indicated that loss on ignition(LOI) also increased significantly. SEM results showed that the weathering intensity of thebasalt blocks decreased gradually from the outside to the inside, and the mineral morphology significantly differed on both sides of the weathering front. The saprolized crusts presented cellular microstructure features due to the generation of micropore and clay minerals. Thin section analysis showed that plagioclase was relatively more stable than pyroxene and chlorite during weathering. With a centripetal propagation of the weathering front, saprolized crusts became thicker and corestones became smaller; fresh Emeishan basalt blocks gradually turned into saprolized blocks. Due to the loose structure and low strength of saprolite, the quality of the Emeishan basalt mass significantly deteriorated, this being a potentially important factor which caused the Touzhai landslide to occur. 展开更多
关键词 Vadose zone Emeishan basalt Scanning electron microscopy Saprolite Corestone Touzhai landslide
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